Thomas Kaye, Burke Museum paleontology research associate, and eight international colleagues have developed a new technique to analyze fossils. Published in the journal “PLOS ONE,” the technique, called laser-stimulated fluorescence (LSF), utilizes lasers to stimulate fluorescence in fossils that normally don’t fluoresce under standard UV lighting, with the new view captured through photography via a camera lens.
”Laser fluorescence opens the door to discovering previously unseen and unknown features in ancient fossils,” Kaye said.
Each color of laser emits a different wavelength of light, which excites fossils in different ways. LSF can be pinpointed onto microscopic fossils as well as projected over large areas to analyze bigger specimens. Kaye and colleagues applied this new technique to five different case studies in the “PLOS ONE” paper. One study involved two Burke paleontological specimens—fossilized feathers from the Green River Formation in western Wyoming.
These feathers contain unusual insight into soft tissues preserved in the fossil record. When observed under standard lighting, barbs on the feathers are apparent but the interlocking barbules were missing. However, when back-lighting the fossils using the LSF technique, the much smaller barbules—become visible and were found to be widely distributed on the specimens. Kaye found multiple specimens from the same time and place showed these results. Without the new information provided by laser fluorescence, we might have assumed that these feathers had not evolved barbules yet.
Article Source: Burke Museum